Electric chain-welding machine.



lmoffso.

L Ff RETZEL u Gi E. BARSTOW. ELEUTB GHIN WELDING MGHNR Brummen HLM nu 11, 1907,

Patented Ost. 8, 1912 TYORNELS A. F; mETzEL-z G, E. BARSTOW.

'ELBCTBIG GRAIN' WELDING MACHINE APPLIOATION rimar- MAY 11, 1907.

Patented G. 8, 19122.

9 SHEETS-SHEET 4.

A. l". RIETZEL & G. E. BA-CS'IOWe ELECTRIC CHAI'II WELDING MACHINE.

APPLICATION FILED MAY 11, 1907.

PatnteC-Ccnfs, 1912.4

LCCCJCC.

9 SHEETS-SHEET 5.

lin H 1L P. RIETZEL L G. ARSTUW.

ELECTRIC GHAIN WELDING MACHINE.

APPLICATION FILED MAY 11, 1907.

Patented ont. 8, i912.'

A. F. RIETZBL & Cr'. E. BARSTCW.v

ELECTRIC CHAIN WELDING MACHINE.

APPLICATION FILED MA'Y 11. 1907.

Patented 0011.8,1912x '9 SHEETS-SHBET 7 /4-z Y, C

W/f/VESSES.'

A. F. .RIETZEL a G. E. BARSTOW,

BLEGTRIC CHAIN WELDING MACHINE.

APPLIGTION FILED KAY 11, 1907.

Patented-Get. 8, wm

9 SHEETS-SHEET 8.

(XY/a1 NGL/ws A. F. vMETZEL & C. E. BARSTCW.

ELECTRIC CHAIN WELDING MACHINE.

APPLICATION FILED MAY l1, 1907. 195040,763. Patenneafot. a, m2,

S SHEETS-SHEET 9,

v l at4 diametrically ADOLPH F. RIETZEL AND GEORGIE EBARSTOW, OF-LYNN, MASSACHUSETTS, ASS-IGNORSy =To rnonson'nnncrnrc WELDING COMPANY, orLYNN, MASSACHUSETTS, A com PonATIoN or MnfsSAcHUSnTTS.'

y Ennornic CHAIN-wn'nxirn's insomma'.

" and GEORGE' E. Bansiow, citizens of the United States'and/'residents ofjLynn, in the county 'Lof Essex and State .of Massachusetts, with postfoii'ce address Lynn, Massachusettsyhave invented certain new and useful y.Improvements in Electric Chainworking a heated tot operated upon.y

provide a machine which of which the following relates to electric 4metal p aratus wherein the work is e'desiredextent b the passage of `electric through t e section of metal to be welded,

Welding Machines, 1s .s specifcationi,

`Our inventiony Oneof 'the objects vof our invention. isto shall at all times e under the control ofthe operator both to stm and stop it but at the same time one which is capabl'of beingautomatically stopped at a predetermined of 'this part ofa welding ough union ofthe metal at'its Welded porv period or peri: s 1`r i its=cycle of operation. i

Another object of our invention is tol provide a rie-heating ofthe work. The object of our inventionfinthe case yoperation iste insure a thor-'f tion and to avoid the chance of imperfect union due to the fact that the upset in the metal may split and small cavities be formed .ceive theirv heatingl therein which might not entirely be -filled up bythe operation .of the forging tool.,v By

re-heating and againI upsetting the work the particles of' metal become more closel united and a more perfect weld is obtaine Obviousl 'the re-heatin period could be dispense with without eparting from the spirit of'our invention. i.

Another part of our invention consists in providing automatically operated reciproeating current-'carryin jaws to supply heating current to the wor and which are'prefernbly adapted to close upon the work and form a rm 'surface Contact therewith by spring pressure. These contacts may 'recurrent through a roller connection with t e secondary of the trans former. They arealso Ipreferably constrcted and operated"I toengage-the work opposite v.sides thereof. ur 'invention consists rfurther inv providing contacts having sliding. or roller bearf .Speclcati'on of Letter-shunt. Application med my 11, isor.' serialI No. 373,081,

forged for otherwise ing connections with their source of .power with means to reduce sparking across these roller connections due to imperfect contact occasioned by `dirt `accumulating on the rollers, poor alinem'ent, wear, etc. These means consist preferably of leads forming. a, ishunt between the contacts and the secl` ondary ofthe transformer. A

; lAnother parto`f kour invention consists in providing 1a forging'toolv or implement with means vwhereby itwill strike one Sor. any number `of predetermined blows upon' the work Abefore coming to rest. Qur. invention consists. further the forging' tool when therefor is released.

Our invention consists still further -in'pro viding means for immediately stopping the calm or master shaft when coupled therefrom. Ourinvention' consists further in the Spe# cial combinations o f devices and-mechal'iisms hereinaftedescribed and then pointed outin the claims.j

the actuating power 'Our invention is especially useful' for elec; `80

tricall welding;cha in links and will hereinafter e described as applied to an electric chain-weldi machine but we do not limitl rateneeaoct. s, 191e.-V

in previa" ing means to insure the immediate .stop 'ofthe power is unl urselves toits ruse in this connection as the i meV might obviously -be applied tovarious other forms ofmachines for doing different styles of work.

In the accompanying drawings, Figure l is a-front elevation ot the upper part of a Y machine embodying our invention'. Fig. 2 is'a front elevation of the lowerpart of q machine embodying our invent-lon. Fig. '3 is aside elevati'on ofthe machine.' -F ig, 4 is a plan view of the .table of'thc'nia chine, the pressand actuating' parts having been-removed. Fig. 5 is anenl'arged `side elevation o'f the rcciprocatin contact slides. Figt is a. side elevation of t e same looking at itsoppositeide. Fig 7 is alfront eleva: tion of the same;` Fior.l 8 is a'front'eleveti'on of tlc forgingjdie iig. 9 is a vertical section of thesume. Fig.l0 is a' horizontal sec;

tion 'takenfon--the line A A Fig. 8.- `Fig. 1l: is a transverse vertical section of-f the same,

Fig. lil is an elevation of the press clutch release mechanism. FF 1g. 1811s a plan of the same. 14 is siivenlnrged elevatloi, of

part of the device for controlling the numer of blows of the forging tool. Fig. 15 is i an enlarged elevation ot another part of the same device. F ig. 1G is a front elevation of the transformer. Fig. 17 is a vertical central section of the same. Fig. 18 is au enlarged side elevation of the p werclutch starting and stopping mechanism. Fig. 19 is a. front elevation of the saine. Fig. :2O is a detail of a part of the mechanism shown in Fig. 18. Fig. 21 is a transverse if'ertical section taken on the line B B Fig. 18. Fig. 22 is a plan and partial section ot the part of the mechanism shown in Fig. 1S, the same being shown in the position where the master shaft is coupled to the driving power. F ig. 23 is a similar View showing the master shaft released from the power. Fig. 24 is a diagram of the circuits of the machine.

1 indicates the main table or platform of the machine which is supported by the legs 2. The work, in the form of a chain-link 5 is placed between the worlcholders 4, 4 in a horizontal position the broken edges or part to be welded being placed toward t-hc rear of the machine. The link is clamped between the work holders 4, 4 by engaging with its curved ends as described in the prior patent granted to A..F. Rietzel for electric chain welding machine No. 7 83,543 and dated Feb. 28th, 1905. The woilt-liold els 4, 4' are securely fastened to workholder slides 3, 3 formed from suitable castings and adapted to slide in grooves 6, G formed upon the table l. Preferably but one of the slides moves to clamp the work (namely the one on the right, indicated at 3) the slide 3 remaining stationary, but obviously the movable and stationary slides might be reversed or both might be movable. The osition of slide 3 may be adjusted lonitu inally, to allow the machine to take iterent sizes of work, by means ot a set screw 7 mounted in a bracket 40 and swiveled in the 4end of the slide 3.

The work-holder 4 together with the slide 3 is forced toward the opposite holder 4' by any suitable means, such as for instance by a toggle actuated as shown and described inthe previously mentioned patent of A. F. Rietzel No. 783,543. This mechanism is typified in the present case by the secondary toggle (which moves the slide) made up of the moving member 9 jointed to the end of the slide 8 and the fixedA member 10, the latter being pivoted at 41 to a boss risingl from the table 1. This secondary toggle is actua-ted by the primary toggle composed of the members 44'and 49. of which 42 indicates s. casting or block pivoted at 43'to a boss risin from the table.1, constituting the fixed mem er of the toggle and 'ointed to the secondary toggle by the flat link 44. Seated in. a groove or otherwise suitably mounted uponv the casting 42 is a long lever or toggle actu ating handle ,8. The secondary toggle is preferably adjustable, said adjusting being accou'iplished by constructing preferably the tixed member 10 as a turn-buckle. 'lhe return movement o1" the slide 3 is preferably positively but adjustably limited by the action of a set screw 11 mounted in a projection on the slide 3, said set .screw coming into contact with a stop 12 rising from i .1e table l.

13 indicates the master-shaft. mounted in suitable brackets 14 secured to the table 1 and upon which rotates the actuating means. for the various mechanisms of the machine as will be hereinafter described.

lleterring more particularly to Figs. 18 to i253 inclusive, 15 indicates a continuously rotating.r pulley mounted upon `thc counter-shaft 17 and forming the loose member ot a friction clutch, hereinafter called the Welder-clutch, the fast member or clutch disk being indicated at 16. The clutch disk 16v has a spline connection with the countershaft 17 but is capable of sliding thereon so as to engage with or be disengaged from the pulley 15. In the vhub of the disk 16 is a. groove in which the arms of a fork 1S mounted on a rod 19 engage with the hub to force the members of the clutch together through the action of a spring 2O conipressed between a bearing 45 formed in the support Q3, pushing against a collar pinned to the rod 19, and thereby, the shaft 13 rcvoli'es by means olla gear 21 on the countershaft. meshing with gear 22 on master-shaft.. The counter-shaft 17 is mounted in bearings formed in a casting or support 23 said casting also providing bearings 45, 45 for the rod '19. On the rod 19 is a sleeve Q4 to which one member 25 of the toggle is jointed. The other member or fixed member QGturns on the pin 27 secured to a projection from the casting 2?). The members of the toggle are connected to a rod 29 extending horizontally through bearings in a casting 29 supported upon the table 1 andare held in their straightened position by the action of a spring 30 compressed between a collar 31 secured to the rod QS and a set screw 32 supported in a post of the casting 29 in which position of the. toggle the nicmber25 forces the sleeve Q4 against the nuts 33 on the end of the rod 1f) and draws the clutch apart against the action of the spring 20.,v To permit the spring 2() to bring the members of the clutch together and thus start the master-shaft. the toggle actuating rod 2S is retracted by a catch 34 which engages a shoulder on the collar 31 by means of the following mechanism ,z-Ref Y ferring to Figs. 2 and 3, 50 indicates a footlever mounted on a rod` (l0 journalcd in bearings formed in a casting 61 secured to the framework of the machine. Pivotally. mounted on the foot-lever 50 is the vertical pull-rod 51 pivoted to the horizontal arm iso i 0 which offthoibell-crankp52, thpi rod -53 forming a link connecting the vertical arm of the bellcrank 52 toasuitabldarm 54 carried by a rock-shaft, said rock-shaft being mounted ..5 in baringssecurefito the right leg pf the machine. Thother-.eiid of said rock-shaft 55 -vhaa attachtlittheretoxan arm 5G to which is pivoted lthe vertical pulling rod 57. A spring 58 tends to normallykeep the rod 57 and t erefore the foot-lever n its uppermostposition, in whiciposition the clutch is unccupled. The -upperend of the ver-' tical rod 57 is pivoted to one end of a bellcrank 59, (Figs. 18 and 19), said bell-crank u being pivoted at 62 the side of the casting 29.- 63 indicates a reciprocating' bar moving in suitable guides in its forward and rearward move-` ment 4bythe pins 65 and 66 respectively. l; Mounted upon a ing therewith isP the catch 34 which' engages the collar 31 of the toggle actuating rod 28.

It willthus be obvious thatby ressing the foot-lever the bar 63y will be rawn'to the left '2(Fig.- 18) .through the intervening mechanism and carrying the catch 3e with it the toggle-actuatin rod will open the clutch-o rating togge and the mastershaft wi lvstart torevolve as scribed. It will here, be notedthat if the foot-lever is released the toggle actuating rod 28 will forcethe members 25 and 26 of the clutch operating toggle straight, through the `cooperation of the springs 30 and 58 action will separate the members 15 and 16 of the clutch as previously described. Upon a bracket 1-12 secured to the tablegl is mounted some friction material `such as a stri of leather 113 in such position that it g5 will? be engaged by the outer rim'of the fixed clutch member l'wlien thesame has been drawn apart from its companion or power member l5. When the members of the" clutch have become disengaged through the` action of the clutch operating toggle, as lpreviously described, the fixed member :16er member through which the power is transmittedv to the master-shaft will be forced against theleather 113 and iminedi- ,B5 ately come to rest and thus avoid the danger ofthe master shaft continuing to revolve `through the. momentum which may have been stored upin the'same and tending to carry it beyond the desired stopping position.

e will nexty describe the mechanism for feedingfheating current to the work after which will be described the-means for automatically stoppin the revolution of the ai; master-shaft. Re eri-ing lmore particularly Ytact-jaws orelectrodes,

to a 4boss formed upon yformed in posts of the casting '29." Depend' boss on the bar 63 and movpreviously de- Y ings mounted Vplates 95. Passing through the upper bearvin the terminals of the to Figs. 4, 5, 6 and 7, the contact-carriers 70, 71 are disposed in parallel position one with the other-and transverse to the axis of the master-shaft so that the contact-jaws or electrodes carried thereby will be in osition to 7o make contact with the work on eit er side of the break to be welded or portion ofthe metal to be otherwise worked and may be supplied with current from any suitable source to be conducted b them to lthe. con` when the vsame are in their forward position' and the work, as shown in Fig. 5. By preference we .employ a transformer of the type and general construction shown and described in the aforementioned Patentv N o. 783,543, a brief description'of which will. suiiice in the present case.

72, Figs. 16 and 17 indicates the secondaryl of a transformer, the same being vsplit into two terminal blocks for the contact-carriers, the'primary for which is indicated at 73 and the laminated core at74. The secondary isinsulated from-and suitably secured to the under side of the table 1 by insulated bolts passing through lugs formed on thelsecondary 72. The laminated core 74 4rests u on" and is properly insulated from a supporting brace 75 mounted at either end upon a leg'of the-machine." The terminals of the] secondary 72 passup through a rectangular opening in the table l, each terminal formin a wedge-shaped bearing-surface upon which the Contact carriers travel.

The contact-carriers 70, 71 are constructed of large blocks of copper suitably grooved in their under surface to ride upon roller-bearin and carried b frames 92 and superposed upon the terminals ofthe secondary. The upper surfaces of the contact-carriers are provided with channeled plates 93 forming guide bearings for the. upper set of roller-bearings 94. Superposed upon the rollerbearings 94 are bearing in Contact with 110 ing plates 95 are the'stud-bolts 96v one located at each end of the bearing plates and which pass through longitudinal slots 97 in the contact blocks and are firmly fastened y secondary 7 2.` Over the upper ends of the studs 96, plate springs 98 are inserted and fastened by suitable nuts, thus keeping the contact-carriers pressed against the roller-bearings 90 and at the saine time allowing a reciprocating movel ment of the carriers upon the bearings.

Mounted upon each of the contact-carriersv on their inner sides are a pair of levers 86 and 87 carrying Contact jaws oi` electrodesl 84, 84 and 85 and 85 respectively. The levers 86 and 87 are fulcrumed upon studs 88 passing transversely through the contact carriers, said levers bein g held firmly against y the sides of the carriers by springs v89 cornpressed between nuts upon the ends' of the e1280 studs SS and recesses in the outer sides of the carriers. Mounted upon the forward ends ot the levers SG and ST are the cont-act iaws with. horizontal slots through which the screws 00 pass and screw into the ends of the levers for mounting the aws upon the same. By these means adjustment ot the ja or electrodes can lie obtained longitudinally with regard to the work to vary the amount of metal to he heated 4that is, `for larger sizes of work it is desirable to have a greater amount ol metal between the electrodes.

Keyed to the master-shatt- 13 and. revolving therewith is a eani 101 which comes into engagementI with the cani-roll 102` carried by one. arm of a tulcrumed levcr 103 (consti toting a cam follower) pivoted at 10J-l to a boss in the side ot a bracket S0. said bracket being supported upon the table 1 near the rear end thereof. The other arm of the lever 103 has mounted thereto a pair of rollers 106 which engage recessed projections at the rear ends ot the upper right. and left hand jaw operating levers S0. A similar mechanism is prorided for operating' the two lower Contact jaw operating levers 9T and is carried into efi'ect by the cam 101 actinpt on the cam-roll 102 of the lever 113.

followers keeps the rollers 102and 102 forced against. their respeetivc cams 101 and 101. It will thus be seen that when cams engage the rollers 102 and 10i/ the jaws S4, S4', S5 and 85' will he open and free .from the work as shown in Fig. G. When the cam rolls 10:2 and 102 drop into the recesses ot the cams 101 and 101 the Contactv jaw-open ating levers become' free from the camfollowing levers 103 and 103 and the contact-jaws are drawn tou-ether to engage the work by the pull of a tension spring 108 connecting the torward ends of the jaw operating levers as shown in Fig. 5. The

cams 101 and 101 are preferably. doublecams, that is they each have two shoulders 180O apart so that the contact jaws will open twice during one revolution of the master shaft 13. rPhe niasteishaft also carries a cam 110 to push the contant-carriers forward.

so that the contaet-jaws may engage the work. For doingr this the followingr mechanism may be employed. A rock-shaftl 79 mounted in suitable bearings in the bracket S0 has a cam tolhiwer in the vform of an arm 111, terminating in the usual cam roll, keyed thereto in such manner thatl thc roll is in engagement with the cam 110. Also mounted upon the rock-shaft T9 and keyed thereto is a pair ot links S1 (one for each contactcarrier) connecting the rock-shaft with arms S3 secured to and extending' from the rear of the contact-carriers T0 and Tl. The arms S3 are preferably insulated from the contactcarriers and are pivoted to the arms 81 by spring; l 107 connecting the upper and lower camf loose pivotal connections indicated at SQ. Upon the revolution of the master-shaft the Iteam 110 pushes the contact carriers, and Si, $1', S5 and 15 said laws being provided therefore the Contact jaws or electrodes, forward by rocking the shaft T9 which forces the links S1 forward through its connection therewith. Another cani T0 upon the master-shat engages the roll 77, upon the cam follower' 7 8 keyed to the rock-shaft 70 in a practically diametrieally opposite position to the cam follower 111 and draws the con tactcarrierslback and away from the work in an obvious manner.

From the foregoing description it will be seen that. the contact-carrying jaws or electrodes are forced out of contact with the work by rigid mechanical means whereas the Contact is formed with the work by spring pressure thus insuring good contact between the work and the electrodes whether one piece of work be smaller or larger than the preceding. In other words, the contactl jaws are self-adjustable transversely to ythe line of the Work.

`We do not, confine ourselves to contactjaws or electrodes wherein the two members of each are movable as, obviously, one might be stationary and the other movable to follow upand make contact with the work on a diainetrically opposite side to the. stationary onel withoutl departing from the spiritof our invention. It will also be noted that the right and left upper contact-jaws are opened by the one lever, while the two lower ones are operated simultaneously by a cornpanion'lerer. These levers 103 and 103 are mounted stationary upon the machine where as the contact-jaw carrying levers upon which they operate are movable.

ln machines of this character where the current is transmitted to the work from the secondary of a transformer through roller bearings, there has been a tendency to spark around these rollers owing to the diliiculty of procuring and maintaining a true rolling 'surface v'and also to dirt accumulating about the rollers, and all tendiner to a loss of current. We obviate this difficulty in the following manner :-At some convenient place .on -each terminal of the secondary ot' the transformer a flexible lead 115 is secured, the other end being connected to some suitable part of the contact-carrying blocks as at 11G. This lead thus forms a shunt across the roller connections and reduces sparking across the same. lVhile we have fol nd that the use of such a shunt connection is advantageous, we do not limit, ours-ela es to its use in this connection. The construction of this part of the machine in the manner herein shown and described is not claimed herein but forms the subject of claims in our application tiled December 26th, 1908, Serial No. 469,189.

To automatically stop the mastershaft 13,

a cam 36 is vkeyed thereon preferably but n and/'provided ot necessarily, withy four shoulders for reasons tliatwill Ahereinafter cam 36 in-tlienforni of mounted upon a bracket be set forth. A

cam-follower 37 for the a lever is pivoted and 38 supported by the casting 23 as clearly lshown in Fig. 18. One `Larm of the lever or cam-follower 37 carries y the usual cam-roll 39 which engages the cam 36 while the other arm is connected to the vertical arm of the bell-crank lever 67 The horizontal arm-of carries a tripping dedog 69 pivoted at 105 of aspring' 117. The

tripping device or dog 69 is adapted toen' gage a rearwardly extending arm 34 of the catch34 and trip the same as will presently zo be described. A third or supplementary Y where it is in 40 arm 67 ot thebel thereto one end of ond of which is secured t-o a post 199 rising".

l-cranlr leverv has fastened a coil spring 118 the otherl A from a suitable part of the casting 29said ,spring always keeping the 4cam roll pressed against the cam 36.

Normally, when the master-shaft`13 is t rest the cam-roll'B shoulders on the cam 36 and 9 is engaged by one of tl e the dog/69 is free from the catch 34 as shown in Figs.' 18 and 20. By pressing the foot-leven which causes the master shaft to revolve.y through anism as previouslydescribed, die cam 36' having revolved sufficiently, the /am-roll 39 drops into a recess lon the cam 3 I and the dog 69 is raised up clear of the upper surface of arm 34; of the catch 34, andv is pulled over against the stop pin' 109, bythe spring 1:17

3dfrom the coll position to release the catch ar31 when the cam roll 39 reaches and rises upon. the next shoulder on the cam Having" now wh ich the work isl mechanism for starting 36, and thusseparate the of the clutch as previously described.

described the manner in members clamped in rits holders, the and `stop ing the master-shaft -andp the de! current to the work, we

shallnow describe the mechanism fdr starting the press and ing it to strike a blows upon the work.

the devicesv used' for causpredetermined number of rlhe. press preferably consists of an upper and lower die or forging-tool which vmo ve simultaneously andl are made up and mounted each in the saine way so the same. reference numerals will be api plied to the/like p 120; indi/Cates the u forgingjtool connected by arts of each. i'

pper and llo-wer dieser a bushing 175' to u post/176 seated in 'a recess in a block 121 which/'is adjustably mounted in ahead 122 working in4 guide forg1ngtools are 'readily' lremovable as shown more clearly inl 8, 9, 10 and 114 'to `allow ythe use 'fo LThe -said dies or f different forms' of forge:

v133 and Aworking' apparatus No. 821,061,

is effected 4 173. indicatesqa friction i upon a suitablepart ofthefpresslactuating ing or other Workingitools to operate on the work. The die 120 is provided with a sliouli der adapted to fit in a groove in t-lie postr17 6 to prevent the die turning independent of thepost and is adjust screw` 177 secured to able transversely b-y passing through the block 121 and a lip 176 depending from the post post and attached die in any' position to which it may be adjusted by operating-the screw 177. The guides 123 .for the upper press parts are fastenedlto The block 121 is reciprbated by.

.176. Set screws 178 may beused to set the a casting 124,1A mounted upon standards 125 rising imm the4 gian for the upper press being actuated lby a ank or eccentric 128 connected to shaft 129 mounted inA bearings formed on the casting 124. The pitman for the lower press is actuated by a crank or eccent-ric 130 connected to shaft 131mounted in bearings 132 secured to the front of the frame 126. positively geared to shaft 129 by bevel gears the upright sliafting volves therewith.

The shaft-s 129 rest andare set in motion by any suitable vmeans as by a continuously revolving pulley 135 receiving its power from any suitable source and normally running free upon the shaft 129. The power from the pulley 135 is coupled with the shaft 129 the gears 133 to the shaft 131 preferably b a form of clutch shown and y described in 134 and re-4 and 131 normally are atpand throughA our p rior'patent for automatic electric metal Y dated .May 22u ,1906, said clutch coupliiigthe power to the shaft 129 by the forward movement of reciprocating or clutch controlling rod 136 as described in the above mentioned Patent N0. 821,061.

nient or movement to by the action of the coil spring surrounding said rod, which' rod, likev the rod 61 ofisaid patent,operates upon the devices which permit the clutch to operate and couple the power to the o erating shaft ofV the press. The release of tline rod 136 in the present case by operating a suitable catch or detent as w'll be presently described. The restoration of the rod to normal posit-ion by 'a movement to the right where it may be retained by said catch or detent, may be ,effectedin the manner Idescribed in said Said forward move@ the left is produced patent inconnection with the operation of' the'rnd 61 described in said ,patent or in anyother. suitable manner..

band operatingv shaft 129 as, for instance, the hub 275 one end of which is attached to a bar 17-1 .supported in the upper part of the casting lll-l, the other end being drawn tightly around thc hub 275 hy the spring 27h compressed between a suitable oross-har 27T and nuts 27S tapped on the end of a rod 17S) the other end of which is fastened to the friction band 1TB, the whole acting as a brake to insure the imn'iediate stoppingof the press shaft 12S) at the instant the power has heen uncoupled therefrom.

Normally the rod 12,10 is prevented from moving by a pivoted catch or detent 137 holding a collar 13S fastened to the rod 13G. 'lhe catch or dctent 13T is suitably mounted upon a bracket rising from the casting 121 and held in its locking position against the collar 13S by means of a spring 139.

140 indicates the press controlling cam mounted upon the master-shaft 13 and adapted to strike a pivotcd arm or lever 141 pinned to a rock-shaft 112 suitably supported upon the table 1. Pinned or otherwise fastened to the other end of said rock shaft 142 is another arm or auxiliary lever 143 pivotally connected to a vertical pulling rod 144. The upper end of the rod 111-14 is pivoted to one arm of a rocker 145 pivoted at 146 to the castingr 121-. 1li-T indicates a.

v liuk pivotally connecting the other arm of the rocker L15 with a head 14S in which is mounted a. rod 149 carrying a trip or dog 150 adapted to latch over a shoulder on the catch 137 in position to trip the same and release the rod 13G. YWhen the shoulder of the cam 140 hits the lever 141, the doer 150 is forced up and latches over the said shoulder on the catch 137 and atl the same time a spring 180 is compressed between thc head 14S and a suitable projection from the casting 121-. so that after the shoulder of 'the cam 110 has released the lever 141 the springr 180 is free to act and draws down the dog 150 and trips the catch 137 which starts the press as previously described. It will thus be seen that the press is started by the spring 180 and not by a positive action of the cam 110. T his is made necessary by the fact that between the time that the cam 1110 engages the lever 111 and the time when the pressclutch is thrown in, the xnastershaft 13 must be stopped, butnot. before the cam 140 is out of engagement with the lever 1411.

If itis desired to have the press strike but one blow upon the work thc mechanism as described above. will be suiiicient, but when it is desired to cause the work to be struck a number of blows before the press comes to rest, an additional device constructed as follows may be used: Secured to the casting 121 is a bracket 151 upon which is mounted a ratchet 152 and a blowdetermining disk 153 the circumference of which is provided with a number of notches 153. The ratchet and disk are loosely pinned together and freely mounted upon a shaft 154 keyed in a bearing 151 on the bracket 151 and securely held together und against the bearing 151 by a com ression spring compressed between the caring 151 and a nut upon the end of the shaft 154. A pin 156'extending laterally from the catch 137 normally rests in one of the notches` 153 of the disk 153 and holds the same and the ratchet 152 from rotating. livotally mounted upon a collar 157 secured to the. rod 136 is a pawl 158 held against a stop 259 in position to engage the ratchet '152 by the spring 159.

W'hen the clutclrcontrolling rod 136 is released by the dog 150 tripping the catch 137` the pin 156 is freed from the notch Aof the disk 153, the rod 136 moves forward carrying with it the pawl 158 which strikes a tooth of the ratchet 152 and revolves the same and the blow-determining disk pinned thereto. The pin 156 now rides upon the outer circumference of the disk 153 and when the rod 13G is returned it does not; come to rest, but goes forward to again throw in the press clutch because the catch 13T is prevented from, holding the collar 38 by the pin 15G riding upon the disk 153. Upon the forward movement of the rod 136 the ratchet and disk are revolved still further by the pawl 15S and this reciprocating movement is continued until the pin 156 drops` into the nexty notch on the disk 153 when the catch 137 is permitted to lock the collar 138 and thereby hold the rod 136. A retaining pawl 1GO is provided to prevent the backward revolution of th'e disk when free from the pin 156. It will thus be seen that thc number' of blows to be struck by the press depends upon the number of notches provided in the disk 153 and obviously the number of teeth of the ratchet will have to be an equal multiple of the number of notches in the disk. Therefore the fewer number of notches in the disk the greater number of blows will be struck by the press before coming to rest. That is a.-

ratchet provided with 20 teeth and a disk with -1 notches will cause the press to strike 5 blows` and similarly a ratchet wit-h 2O teeth and av disk with 10 notches will cause the press to strike two blows.

It will readily be seen that: it is a simple matter to substitute ratehets and disks of any desired relation to each other so that anypredetermmed number of blows will be de-A livered to the work.

' The currentmay be turned on manually in the type of machine shown although automatic devices may be employed for doingy vcurrents a purely automatic action brought about by the movements of the parts at t-he there are many well known in the art, may

k cation for patent of A. F. Rietzel for ina- 36 ally connected at its upper end with the horizontal arm of 'a bell-crank 169. The vertical Aarm of the said bellcrank is connected through suitable links and levers to the stop instant the weld is completed. i

The particular form of current controlling devices employed is immaterial, any devices adapted to be energized by the movement of the parts to break the circuit, and of which the stop 166 in the path of the set sc rew 165.

he set-screw'165 is adjustable to allowfor different amounts of upset desired to be given to different styles of work.

The master-shaft 13 carries in all six canisz-Two cams, and 76 for pushing forward and pulling back the reciprocating contact-carriers; two cams 101 and 101 for be employed. Preferably we prefer to employ in the present case a contactpin 46 mounted upon a support or carrier 47 secured to one of the pushing-up parts of the machine such as the'slide 3 and adapted to make'contact as soon as the work becomes heated sufliciently to become plastic and yield, so as to allow said contact 'to move, as well understood in the art. The contactpin 46 is preferably adjustable in its support or carrier 47 to vary the point at which the current is cnt of. he pin 46 closes the or electrodes, the press clutch releasing cam and the Welder clutch releasing cam 36. AIf no re-heatin-g of the work is desired, but two shoulders would be necessary on the welder-l clutch releasing cain 36 'and one struction of cams will give one complete cycle of operations of the machine per one However, by eliminating the re-heating' pe- `an electro-magnet 161, said magnet bein energized by current from a supplementa secondary winding 162 as well known in the .art and as diagrammatically illustrated -in Fig. 24. The heating current is turned on by closing the primary 73 of the transformer by means of a double pole circuit closer Secured to the handle 163, preferably one such as shown and described in the prior applirevolution of the master shaft fiay be doubled, that is two complete cycles of operation can be obtained per one complete revolution of the master-shaft. To'obtain this would retain the four shouldersl as shown, the cams operating the contact-carriers Vand press-clutch releasing cam would vhave two chine for electrically welding attachments shoulders 180 apart.

to sheet metal utensils filed Nov. 8th, 1906, s. N 342,456.

The cam 36 is provided with four shoul- 'ders so that theimaster-shaft will stop revolving four times while making one complete revolution. This is done to allow the work to be re-heated and further upset after it has been welded or otherwise worked but we do not limit ourselves to a 'machine wherein this reheating period isused. When it .is desired to utilize a. re-heating period,- the saine may be carried out in the followin now be described, starting with the workholding slide 3 drawn back with the set screw 11 against t-he stop 12, the contactof the plane of the work and the mastershaft stopped, the welder-clutch releasing cam 36 being in the position shown in Fig. 18, the cams for operating the contact# g ing cam in the position shown in Figs. 3' manner: The casting 42 upon which the and 12. push-up lever or handle S'operates is pro- The work is placedin the Work-holcler 4', vided with a projection 164 in which is mounted an adjustableset screw 165 adapted `to normally strike a vertical pin or'sto-p 166 passing through an opening on -the` table 1. he lever 8 and therefore the work-holding slide 3 normally come to rest by the set screw 5 165 striking the stop 166 justas the circuitE through the electro-magnet is closed and the, getlier` thus causing the master-shaft 13 to current cut-ofi'. To remove the -stop 166 so f that the work may be further upset, thel operator presses a foot-lever 167 similar to j the foot-lever 50 for starting the master holder 4 grips the work andthe lever 8 is further drawn up unt-il the bre-ken ends of the work arerin good Contact. The oper-' ator presses the foot-lever 50 whichreleases as the master shaft begins to revolve the forward' and the contactjaw carrying shaft and mounted in' a similar manner tov levers 86 and 37 are released byaction of the casting 61t Upon pressing down this. the cem rolls of the operating levers therefoot'lev'er i167 it draws ,down the vertical for dropping into the recesses on tliecams pulling rod`168 p'ivot'ed-r thereto and pivot'- 101 and 31.61 and the electrodes 84, 8 4', 130

166 as shown. A spring 170 normally keeps v I opening the upper and lower contact-jawsl shoulder on all the other cams. This concomplete revolution of the master-shaft.

riod, the amount ofwork turned out per I latter result, the Welder-clutch releasing cam 15 l n jaws would be double, as shown, andthe he general operation of the machine-Will jaws or electrodes open and drawn back out :X05

carriers and contact jaws or electrodes -als 11:10" shown in Fig 6 and the press-clutch release the slide 3 is drawn up by lever 8, the worki 1115I the Welder clutch actuating spring 20 and T20 the members of the clutch are forced tof revolve .as previously described. As soonV cam 110 pushes the contact-carriers 70, 71 125` S' are brought into contact With the Wort by action oflspringrs 108. Upon revolution of the master-shaft, the cam roll 39 ot the cam-follower 3T drops into a recess of the cam 3 which brings the dog G9 upon the arm 34. of the latch 31 in position to trip 'the said catch and uncouple the clutch as previously described. trades malte Contact with Jthe Work, the cam roll 89 is engaged by a shoulder on the cam 36, the catch 34 is tripped and the mastershaft. is stopped. The double pole. switch having been closed by means of the handle 163 of the automatic switch. which is done preferably before. but. may be done after the electrodes malte Contact with the work, current is now supplied to the work the master shaft in the. meantime retaining its position, so that the mechanism cannot pass on to that. stage of the cycle of operations at which the electrodes would be otherwise Withdrawn and interrupt the current supply. This position is maintained until the shaft is again coupled to the driving power at the will of the operator by again depressing the foot lever 50, the latter having in the meantime been permitted to again rise so that the catch 3i again latches over the collar 31.A lt is therefore Within the 30 power of the operator to prolong or control the total duration of heating or to control at will any other operation taking place at this stage of theoperation of the machine when the automatic stoppage of the action of the machine takes place and to delay at 'will the resumption of the automatic actions. Heating haring taken place sutliciently the operator again depresses the foot lever to cause the machine to resume itsv cycle of automatic operations. vWhen, hoivever, the machine is provided With devices manually operated for upsetting described, he may first. operate the .lever S to upset the Work. Then the lever S is so operated and it is provided with'the attach ments described, the flow of heating current will be interrupted by the contact pin 16 closing the circuit ot' the magnet 161, thus 4 opening the switch. The apparatus haring 50 been permittedto resume its cycle of actions by depressing the lever 50Y the master shaft causes the cams 101 and 101 to operate the levers 86; S7 and open Contact iaws immediate after which the cam 7G dra-Ws the contact-earriers 70, 71 back. While the contact-carriers are drawn back, the pressclutch releasing cam 140 strikes the arm 141 and compresses the spring 180. Upon further revolution ofthe master-shaft the arm or lever 141 is released from the cam 140 and the press-clutch is actuated and the press starts its operations'. At the in staat the cam '140 releases the lever 141, the cam-roll 39 hits the next shoulder on the 55 cam 36 and the master-shaft stops. After As soon as the elec.

the press has finished its operations tmA master-shaft is again caused to revolve (by ,the operator pressing the. Ytoot lever 5() which in the meantime has been again released by him) and the electrodes are brought. into Contactwith the work as previously after which the mastenshatt again stops, the camroll 39 having been engaged by another shoulder on the cam 36. The current is now fed to the Work again, by closing the circuit. as before. During this re-heating:r period the operator is compelled to hold the circuit closed by the handle 163 as the members #i6 and 18 of the circuit. breaker are in contact and the electro-magnet 161 is actuated, which would cause the circuit to be broken if it were not held closed by the operator. The operator now presses the it'oot-lever 167 which takes the stop 166 out ot the path of the set-screw 165 and allows the work to be j'further upset. 1n this operation the cooperating member 48 of the' circuit. closer yields. being made as usual in the art. as a spring. After the work has been sutlicientl y further upset. the operator allows the circuit to be broken (by releasing the handle 163) and again presses the foot-lever 50 when the electrodes are freed from the Work and drawn back after which the mastersha'lt. again stops and the cycle of operations is complete.

From the foregoing description it will be obvious 'that the foot lever Within the reach of the operator is simply the intermediary which may be operated at will to bring about the action of the devices by which the mechanism is restarted after it has been brought to rest at an intermediate stage of its automatic actions and in the following claims therefore the term treadle is to be understood as including any suitable device Within the operators reach.

Vi'hat We claim as our invention is:

1. In an electric metal Working machine, the combination with mechanism for supplying current to the Work, a master shaft controlling the times of operation of said mechanism, a clutch, a treadle, a catch through which the treadle operates to cause the clutch to couple the master shaft to the drivingr power and means for disengaging said catch at predetermined points 1n the p movement of the master shaft.

2. In an electric metal working machine, the combination with mechanism for sup plying current to the work, of a master shaft controlling the times of operation of said mechanism, a clutch, a treadle and means connected therewith operating on said Vclutch to couple the master shaft to the power7 and mechanism*controlled by said master shaft for freeing the clutch from the influence of the treadle.

3. In an electric metal Working apparatus, 'the combination with mechanism for supplyanism, of a clutch Whose members are normally disengaged from one another, a treatlle and means connected therewith lor brineing said members into engagement to couple themaster Shaft to the driving power. a reciprocating bar connected to said treadlt` and a. pivoted catch mounted on said bnr, adapted to hold said clutch in operative condition.

15. ln an elect-ric metal ivorkiiicl apparatus, the combination with the mechanism tor supplying current to the work. otl ar master shaft controlling the operation of said nicchanism, a clutch for connecting the i'naster shaft to its driving power and having' its members normally disengaged from one another, a treadle, a reciprocating' bar operated by said treadle. a pivotetl catch mounted on said bar and throngli vvl'iich said treadle opcrates to bring the clutch men'ibers into engagement and a trip actuated by said master shaft to free the clutch and disconnect the .shaft from its' driving power.

16. ln an electric metal working apparatus, the combination with mechanism for supplying current to the work, of a master shaft controlling,r the Operation of said mechanism, a clutch for coupling the master shaft to the driving povver and having its members normally disengaged from one another, a rod for operating said clutch, a; spring for said rod, normally holding said clutch in disengaged pesitiomand a pivoted catch enraging said rod when moved in one direction to canse the clutch members to become engaged and adapted to be disengaged 'from to engage said rod to operate the same against. the action of said spring, and means foractnating the catch to disengage it 'from said rod, as and for the purpose described.

18. ln an electric. metal Working,r apparatus, the combination of mechanism for snpplying current to the ivorl, a master shaft controlling the operation of said mechanism, a clutch for coupling` tbe master shaft to the driving' power, a rofl lor operating Said clutch, a spring acting on said rod and normally holding' said clutch with its niembersdisengaged, a catch for operating on said rod to canse said clutch to engage against the action of said spring and a trip operate on said catch and said rot., a' and for ibo 194. In an' electric metal working apparat-ns, the combination of mechanism tor snpplyiner current to the Work, a master shaft controlling` the operation ot said mechanism, a clntcli -for coupling trie same to the driving power and having its members normally disengaged from one another, a tre `dle, an octnating rod for said clutch to which the treatlle is connected, a shoulder on said rod, a spring operating on said rod and normally holdingl the membeis of the clutch disengaged Jfrom one another, a catch connected to said treadle and adapted to engage said shoulder, ancla trip actuated .by the master shaft for disengaging the catch from the shoulder.

20. ln an electric metal working apparatns. the combination ot mechanism for supplying current to the Work, a master shaft controlling the operation o'f said mechanism, a clutch for coupling the master shaft to the driving power, a treadle, a catch connected therewith and adapted to operate upon the clutch when the same is to be connected to its driving power, a trip for said catch and a cam connected with the master shaft to aetnate the trip to cansetlie master shaft. to be nncoupled from the driving power.

21. In an electric metal Working apparatus, the combination with the mechanism for supplying current to the work, a master shaft controlling the operation of said mechanism, a clutch for connecting the-master sha Et to its driving power, mechanism connected with said shaft for disconnecting the members of the clutch and a. brake adapted to engage with the rim of a clutch member when the members are disengaged and thereby positively bring the master shaft. to rest.

2Q. ln an electric metal working-apparatus, the combination with a movable Workholder of a stop for limiting the movement thereof when the Work is softened and means for freeing the Work holder from the stop to allow further movement of the Work' holder.

23. In an electric metal working apparatus, the combination with a movable workliolder, of actuating means therefor, a stop engaged by said actuating means to limit the movement of said Work-holder and means for freeing said actuating means from l said .st-op to allow further movement of said Work-holder.

Q4. In an electric metal working apparatnsgtlie combination with a, movable Workholder, of a stop to limit the movement of said Work-bolder, means for adjusting the position in which said work-holder will be brought to rest by said stop and means for freeing said Work-bolder to allow further movement.

ln an electric metal working apparatus, the combination with a movable Workiiolder of an actuating lever therefor, a

g engage said stop and a i y the stop, to limit the lmovement of said lever, adj '1 biel means secured to Said lever to treadle to draw said stop out of the path of said lever as and ylfor the purpose described.

In an electric metal working machine, lcombination of a movable work-holder l. a stop, movable into and out of posi- 'tioin lor limiting the forward movement of said work-holder ngen softening ot the work as and for the.' purpose described.

Q7. In an elect ic metal workingiiaa'il'iine, the combinatiofni` vith a movable wwlr-hlolder and actuating-means therefor, otfa stop movable into indent of the path of said actuating means, .an adjustable pila carried by said actua 'f a 'i to normally engage said stop andi im t the forward njibvement of the work-l'iflgljde and a treadle operating upon said stop:` to lraw the same ont of the path of said pin allow further forward movement of the 'wprk-hdlder as and for the purpose describedf! i j i.

28. In an electric 'metal working appa-- atus, the combination of a contact-ca :ier movable 'laterally with respect to the worl, a contact-j aw mounted thereon, and a spring; for forcing the contact-j a w into engagement; with the work when brought into position over the work by the Contact carrier. In an electric metal working appa-1 ratus, the combination ol a contact carrier? movable laterally with respect to the work, a contact-jaw mounted thereon, a spring for forcing the contact-jaw into engagement with the. work when brought into positie-nf over the work by the contact-carrier and" a cani for disengaging vthe. contact-jaw from.' the work. 30. ln an electric metal working appa-f ratiis, a 'contact-carrier ated contact-jaw said spring operating to? force the jaw into contact with the work; when brought into position over the saine by the carrier. 31. in an electric metal working appa-v ratus, the combination of a contact carrier,- movable laterally with respect to the work,f a' pair of Contact jaws mounted thereon andi movable thereby into position Where theyl may grasp a section of the work between,y them and springs for vmoving said contact -jaws to cause them to grasp the work after,

they have been brought int-oposition and cam for alternately freeing the aws to allow them to vbe actuated by the spring and for positively disengaging them from the work preparatory to the return movement of the carrier.

32. n an electric metal working appa-i tact carrier movable laterally with respect to the work, 'Y

and `a springactu-f l t'or forcing the contact-jaws'into lio and from the work, .jg contact jaws, pivoted d by swinging -in a line site sides iol; 3the' section ot work when brought into position to embrace the work between them and an actuating cam for 'the slide as and for 'the purpose described` 36. In an eleitijic metal working apparatus, the combination of a pair of current supplying contact jaws adapted to embrace the Workbetween them, mechanism for holding the jaws out of contact with the Work and a spring connecting said jaws for the purpose of causing them to engage the work when freed from Said mechanism;

B7. In an electric metal working apparatus, the combination of a pair et'Y spring adapted to embrace the work between 'them and an actuating cani for alternately moving the contacts out of engagement with the work and freeing them to allow them to grasp the work.

v38. In an'electric metal working apparatus, a contact carrying slide movable laterally with respect to the work while supported in position for heating, an actuating cam and lever therefor, anda pair of coacting contact jaws of the saine polarity, both'carried by said slide and suitably-pivcted thereon to permit them to move toward one another and grasp the work by its sides.

39. In an electric metal working apparatos, a pair of contact-carrying slides, movable laterally with respect `to the work, cach provided with a pair ot contactjaws pivoted thereon and adapted to reciprocate in a transverse line to movement oit' the carrier.

v110'. ln an electric metal working apparatus, the combination ot' a pair of contactcarriers, means for operating said contact-- carriers laterally with respect to the Work, a

pair of Contact jaws mounted upon each of .o

aws mounted thereon and transvers' to i imivement of the carrier to grasp ar-seci `he work between them.

in afn j i, metal working apparatos, a senta?, carrying slide forming one terminal` :t the source of the heating electricburre pair of spring actuated contactfijaws fied thereby and forming together on of said source, and actuated by said s to vmaire contact with oppoactuated current-supplying Contact' jaws.

by AtheA u tirjin of a Contact carrier,

llo 

